Waveshare EM06-E LTE Cat-6 HAT for Raspberry Pi, Dual Antennas LTE-A, Multi Regions Multi Band, GNSS

SKU: 1254987
In Stock

9,449.00

  1. Region / Provider EMEA / APAC (except Japan and CMCC) / Brazil
  2. Module dimensions 42.0 × 30.0 × 2.3 (mm)
  3. Operating temperature -30°C ~ +70°C
  4. LTE-FDD B1, B3, B5, B7, B8, B20, B28, B32 (receive only for B32)
  5. LTE-TDD B38, B40, B41
  6. B20+B32 (B32 is used for aux component carrier only), B38+B38, B40+B40, B41+B41
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Description

This is an LTE Cat 6 Raspberry Pi communication HAT with GNSS and up to 300Mbps (downlink) / 50Mbps (uplink) data rate. It is applicable for countries/regions including Europe, the Middle East, Africa, Asia-Pacific, Brazil… By connecting it to PC, Raspberry Pi or Jetson Nano host boards, it is easy to enable LTE-A high speed networking, cloud platform communication, SMS, and global GNSS positioning functions.

When designing in an LTE or 3G cellular module, using two antennas always offer the best possible signal reception and module performance. For LTE modules, usage of two antennas are mandatory if you want to take full potential in terms of signal quality and downlink data throughput. A multiband antenna is an antenna designed to operate in multiple bands of frequencies. Multiband antennas use a design in which one part of the antenna is active for one band, while another part is active for a different band. In LTE, these include spatial multiplexing, rank adaptation and UE specific beamforming: By employing spatial multiplexing several data streams can be transmitted in parallel over the resulting multiple-input-multiple-output (MIMO) channel


Features:

  1. Multi-constellation high-accuracy GNSS positioning: GPS, GLONASS, BeiDou/Compass, Galileo, QZSS
  2. Integrates extensive network protocols, with multi drivers and software support, compatible with different OS including Windows / Linux / Android
  3. USB 3.1 port (USB 2.0 compatible) for connecting to PC, Raspberry Pi, or Jetson Nano host board to enable high speed LTE-A communication
  4. Standard M.2 B KEY slot, compatible with different core modules: EM06-E, EM06-J, EM06-A series
  5. Onboard PWR and RST control pin, enabled via DIP switch, for connecting to external IO to turn on/off or reset the module
  6. Onboard USB-C connector, enabled via switch, for connecting standalone power supply for the module, allows more loads, stable amd flexible power supply
  7. Onboard power supply on/off switch, reset button and LED indicator, easy to turn on/off the module or monitor the operating status
  8. Reserved 4x SMA to IPEX antenna interfaces, with pre-soldered 2x connectors for easily using antennas, allows changing the SMA antenna position
  9. High efficiency power supply circuit, up to 3A output current

Specifications:

  1. Region / Provider EMEA / APAC (except Japan and CMCC) / Brazil
  2. Module dimensions 42.0 × 30.0 × 2.3 (mm)
  3. Operating temperature -30°C ~ +70°C
  4. Extension temperature -40°C ~ +85°C
  5. LTE-FDD B1, B3, B5, B7, B8, B20, B28, B32 (receive only for B32)
  6. LTE-TDD B38, B40, B41
  7. 2xCA B1+B1, B5, B8, B20, B28;
  8. B3+B3, B5, B7, B8, B20, B28;
  9. B7+B5, B7, B8, B20, B28;
  10. B20+B32 (B32 is used for aux component carrier only), B38+B38, B40+B40, B41+B41
  11. WCDMA B1, B3, B5, B8
  12. GNSS GPS/GLONASS/BeiDou (Compass)/Galileo/QZSS
  13. LTE-FDD 300 Mbps (DL) / 50 Mbps (UL)
  14. LTE-TDD 226 Mbps (DL) / 28 Mbps (UL)
  15. DC-HSPA+ 42 Mbps (DL) / 5.76 Mbps (UL)
  16. WCDMA 384 Kbps (DL) / 384 Kbps (UL)

Packages Includes:

1 x Waveshare EM06-E LTE Cat-6 HAT for Raspberry Pi, Dual Antennas LTE-A, Multi Regions Multi Band, GNSS

Quick Comparison

SettingsWaveshare EM06-E LTE Cat-6 HAT for Raspberry Pi, Dual Antennas LTE-A, Multi Regions Multi Band, GNSS removeWaveshare Nano Base Board (C) for Raspberry Pi Compute Module 4, Same Size as the CM4, Onboard 8MP Camera removeWaveshare 2-Channel Isolated CAN Expansion HAT for Raspberry Pi, Dual Chips Solution removeWaveshare PoE UPS Base Board Designed for Raspberry Pi Compute Module 4, Gigabit Ethernet, Dual HDMI, Quad USB2.0 removeWaveshare 4-ch Current/Voltage/Power Monitor HAT for Raspberry Pi, I2C/SMBus removeWIZnet WizFi360-EVB-Pico remove
NameWaveshare EM06-E LTE Cat-6 HAT for Raspberry Pi, Dual Antennas LTE-A, Multi Regions Multi Band, GNSS removeWaveshare Nano Base Board (C) for Raspberry Pi Compute Module 4, Same Size as the CM4, Onboard 8MP Camera removeWaveshare 2-Channel Isolated CAN Expansion HAT for Raspberry Pi, Dual Chips Solution removeWaveshare PoE UPS Base Board Designed for Raspberry Pi Compute Module 4, Gigabit Ethernet, Dual HDMI, Quad USB2.0 removeWaveshare 4-ch Current/Voltage/Power Monitor HAT for Raspberry Pi, I2C/SMBus removeWIZnet WizFi360-EVB-Pico remove
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Description
  1. Region / Provider EMEA / APAC (except Japan and CMCC) / Brazil
  2. Module dimensions 42.0 × 30.0 × 2.3 (mm)
  3. Operating temperature -30°C ~ +70°C
  4. LTE-FDD B1, B3, B5, B7, B8, B20, B28, B32 (receive only for B32)
  5. LTE-TDD B38, B40, B41
  6. B20+B32 (B32 is used for aux component carrier only), B38+B38, B40+B40, B41+B41
  1. Product: Waveshare Nano Base Board (C) for Raspberry Pi Compute Module 4, Same Size as the CM4, Onboard 8MP Camera
  2. Video: Mini HDMI port × 1, supports 4K 30fps output
  3. Storage: TF card socket for Compute Module 4 Lite (without eMMC) variants
  4. Power Input: 5V
  1. Brand: Waveshare
  2. CAN Bus Expansion HAT For Raspberry Pi
  3. Operating voltage: 5V
  4. Logic level: 3.
  5. Integrated power isolation
  6. Onboard 120Ω terminal resistor
  7. Adopts MCP2515 and SN65HVD230 dual chips combined solution,
  8. Breakout SPI control pins, for connecting with host control boards like STM32/Arduino
  1. POWER INPUT: 7-36V
  2. STORAGE: MicroSD card socket for Compute Module 4 Lite (without eMMC) variants
  3. FAN: allows speed adjustment and measurement, 5V / 12V
  4. INDICATOR: M.2 status LED
  5. CM4: status LED
  1. Model: Waveshare 4-ch Current/Voltage/Power Monitor
  2. Operating voltage: 3.3V/5V
  3. Control interface: I2C/SM Bus
  4. Sampling resistor: 0.1Ω 1%
  5. Voltage range: 0~26V
  6. Current range: ±3.2A
  1. Product: WIZnet WizFi360-EVB-Pico
  2. RP2040 microcontroller with 2MByte Flash
  3. Dual-core cortex M0+ at up to 133MHz
  4. 264kByte multi-bank high-performance SRAM
  5. External Quad-SPI Flash with eXecute In Place (XIP)

 

Content

This is an LTE Cat 6 Raspberry Pi communication HAT with GNSS and up to 300Mbps (downlink) / 50Mbps (uplink) data rate. It is applicable for countries/regions including Europe, the Middle East, Africa, Asia-Pacific, Brazil… By connecting it to PC, Raspberry Pi or Jetson Nano host boards, it is easy to enable LTE-A high speed networking, cloud platform communication, SMS, and global GNSS positioning functions.

When designing in an LTE or 3G cellular module, using two antennas always offer the best possible signal reception and module performance. For LTE modules, usage of two antennas are mandatory if you want to take full potential in terms of signal quality and downlink data throughput. A multiband antenna is an antenna designed to operate in multiple bands of frequencies. Multiband antennas use a design in which one part of the antenna is active for one band, while another part is active for a different band. In LTE, these include spatial multiplexing, rank adaptation and UE specific beamforming: By employing spatial multiplexing several data streams can be transmitted in parallel over the resulting multiple-input-multiple-output (MIMO) channel

Features:

  1. Multi-constellation high-accuracy GNSS positioning: GPS, GLONASS, BeiDou/Compass, Galileo, QZSS
  2. Integrates extensive network protocols, with multi drivers and software support, compatible with different OS including Windows / Linux / Android
  3. USB 3.1 port (USB 2.0 compatible) for connecting to PC, Raspberry Pi, or Jetson Nano host board to enable high speed LTE-A communication
  4. Standard M.2 B KEY slot, compatible with different core modules: EM06-E, EM06-J, EM06-A series
  5. Onboard PWR and RST control pin, enabled via DIP switch, for connecting to external IO to turn on/off or reset the module
  6. Onboard USB-C connector, enabled via switch, for connecting standalone power supply for the module, allows more loads, stable amd flexible power supply
  7. Onboard power supply on/off switch, reset button and LED indicator, easy to turn on/off the module or monitor the operating status
  8. Reserved 4x SMA to IPEX antenna interfaces, with pre-soldered 2x connectors for easily using antennas, allows changing the SMA antenna position
  9. High efficiency power supply circuit, up to 3A output current

Specifications:

  1. Region / Provider EMEA / APAC (except Japan and CMCC) / Brazil
  2. Module dimensions 42.0 × 30.0 × 2.3 (mm)
  3. Operating temperature -30°C ~ +70°C
  4. Extension temperature -40°C ~ +85°C
  5. LTE-FDD B1, B3, B5, B7, B8, B20, B28, B32 (receive only for B32)
  6. LTE-TDD B38, B40, B41
  7. 2xCA B1+B1, B5, B8, B20, B28;
  8. B3+B3, B5, B7, B8, B20, B28;
  9. B7+B5, B7, B8, B20, B28;
  10. B20+B32 (B32 is used for aux component carrier only), B38+B38, B40+B40, B41+B41
  11. WCDMA B1, B3, B5, B8
  12. GNSS GPS/GLONASS/BeiDou (Compass)/Galileo/QZSS
  13. LTE-FDD 300 Mbps (DL) / 50 Mbps (UL)
  14. LTE-TDD 226 Mbps (DL) / 28 Mbps (UL)
  15. DC-HSPA+ 42 Mbps (DL) / 5.76 Mbps (UL)
  16. WCDMA 384 Kbps (DL) / 384 Kbps (UL)

Packages Includes:

1 x Waveshare EM06-E LTE Cat-6 HAT for Raspberry Pi, Dual Antennas LTE-A, Multi Regions Multi Band, GNSS

CM4-NANO-C (Raspberry Pi CM4 Ultra Mini Expansion Board Type B) is a baseboard that can be used with Raspberry Pi Compute Module 4. Although it is tiny, it can bring out the interface of Raspberry Pi Compute Module 4 with an onboard camera.


Features:

  1. Multiple Interfaces, Onboard 8MP Camera
  2. Suitable For Evaluating The Raspberry Pi CM4 Or Being Integrated Into End Products
  3. ON: Switch USB to Type C interface, will enter download mode when powered on (configured as a large-capacity disk through RPI boot)
  4. 5V power supply, or used for eMMC burning

Specifications:

  1. CM4 Socket: suitable for all variants of Compute Module 4
  2. Connector: Raspberry Pi 40PIN GPIO header × 1
  3. USB: USB 2.0 Type-A port × 1
  4. Display MIPI DSI: port × 1 (15pin 1.0mm FPC connector)
  5. Camera: IMX219-D160 (8MP, 160°FOV)
  6. Video: Mini HDMI port × 1, supports 4K 30fps output
  7. Storage: TF card socket for Compute Module 4 Lite (without eMMC) variants
  8. Power Input: 5V

Package Includes:

1 x Waveshare Nano Base Board (C) for Raspberry Pi Compute Module 4, Same Size as the CM4, Onboard 8MP Camera

2-Channel Isolated CAN Bus Expansion HAT For Raspberry Pi, MCP2515 + SN65HVD230 Dual Chips Solution, Multi Onboard Protection Circuits. Enable Isolated And Stable CAN Bus Capability For Your Raspberry Pi .Standard Raspberry Pi 40PIN GPIO Header, Customized For Raspberry Pi Series Boards .MCP2515 CAN Controller + SN65HVD230 CAN Transceiver .SM24CANB TVS Diode, ESD Protection, Transient Peak Voltage Protection. high anti-interference capability, and stable operation. It suits for fields such as automotive devices or industrial automation.


Useful link:

To do Hardware and Software setup, please follow this tutorial.


features:

  1. Adopts MCP2515 and SN65HVD230 dual chips combined solution,
  2. allows 2-channel CAN communication
  3. Integrated power isolation, providing stable isolated voltage
  4. Onboard digital isolator, signal isolation makes the communication more safe, more stable, and better anti-interference
  5. Onboard TVS (Transient Voltage Suppressor) diode, provides ESD protection and transient peak voltage protection
  6. Onboard voltage translator, select 3.3V/5V operating voltage by jumper
  7. Onboard 120Ω terminal resistor, configured by jumper
  8. Breakout SPI control pins, for connecting with host control boards like STM32/Arduino

package include:

1 X Waveshare 2-Channel Isolated CAN Expansion HAT for Raspberry Pi

Compute Module 4 POE Board is a baseboard that can be used with Raspberry Pi Compute Module 4, and supports POE power supply and 7~36V DC power supply, with four onboard USB2 .0 for user convenience.

User Guide: 

  1. Confirm the fan voltage before connecting, it support 5V and 12V. if you want to connect 12V by default, please modify the jumper cap of FAN_VCC
  2. USB Type C interface is used as the USB SLAVE interface to burn the image, and it can also be used as the power supply interface, but cannot be used as the OTG interface.
  3. The BOOT switch is for CM4 startup mode, the ON for CM4 to enter the programming mode, and the OFF for system to starts normally.
  4. In normal use, it is necessary to provide at least 5V 1.5A power supply for CM4. Otherwise, there may be problems such as automatic shutdown, frequency reduction and so on.
  5. USB2.0 is closed by default, if you want to open it, you need to add dtoverlay=dwc2,dr_mode=host in config.txt
  6. When using the POE function, pay attention to check whether the switch supports PoE of the 802.3af network standard.
  7. When you need to use POE, connect the POE jumper cap to the EN position.
  8. The Change LED light is the charging indicator, it is always on when charging, goes off when fully charged, and flashes when it fails.

 

Multi Power Supply Options

Dynamic Path Management, More Stable Power Supply

 

 

Dimensions


Features:

  1. H.265 (HEVC) (up to 4Kp60 decode), H.264 (up to 1080p60 decode, 1080p30 encode)
  2. OpenGL ES 3.0 graphics
  3. Options for 1GB, 2GB, 4GB or 8GB LPDDR4-3200 SDRAM with ECC (see Appendix B)
  4. Options for 0GB (CM4Lite), 8GB, 16GB, or 32GB eMMC flash memory (see Appendix B)
    Peak eMMC bandwidth 100MBps (four times faster than previous Compute Modules)
  5. Gigabit Ethernet PHY supporting IEEE 1588
  6. 2 × HDMI 2.0 ports (up to 4Kp60 supported)
  7. Three external power supply options: USB interface, wide voltage DC, and PoE
  8. When connected to the external power supply, the system will be powered and the battery will be charged at the same time, and the battery will be in a disconnected status after being fully charged, so as to avoid battery life damage caused by frequent charging and discharging
  9. When the external power supply is insufficient, the battery will provide power output together with the external power supply at the same time to ensure the system normal operation
  10. When the external power supply is connected, the system will keep running normally even when the battery fails or is taken out. When the external power supply is disconnected, it will automatically switch over to batteries output without interrupting the system operation

Packages Includes: 

1 x  Waveshare PoE UPS Base Board Designed for Raspberry Pi Compute Module 4, Gigabit Ethernet,

This is a 4-ch current and power monitor HAT designed for Raspberry Pi. Via the I2C or SM Bus interface, it is easy to monitor each channel’s current, voltage, and power consumption, as well as the voltage between both sides of the sampling resistor. This is a 4-ch current and power monitor HAT designed for Raspberry Pi. Via the I2C or SM Bus interface, it is easy to monitor each channel’s current, voltage, and power consumption, as well as the voltage between both sides of the sampling resistor.

This module can be used to test currents and voltages of four channels, they are (IN1+ IN1-), (IN2+ IN2-), (IN3+ IN3-) and (IN4+ IN4-). INx+ is the current input, and INx- is the current output. Module measure the differential voltage of the sample resistor connected between INx+ and INx-, with the voltage we can measure the working current. The module supports measuring bidirectional current, so users can invert the input and output.


 Features:

  1. Standard Raspberry Pi 40PIN GPIO extension header, supports Raspberry Pi series boards
  2. 4-ch monitoring, via I2C/SM Bus interface
  3. Onboard 0.1Ω 1% sampling resistor, allows measuring bi-directional current up to 3.2A
  4. Embedded 12-bit ADC, supports multiple successive converting, 0~26V voltage measuring range
  5. Directly calculate and output measured power value through additional multiply register
  6. I2C control pins for connecting with other host boards
  7. Comes with development resources and manual (examples for Raspberry Pi/Arduino/STM32)

Package Include:

1 X Current/Power Monitor HAT

1 X 2x20PIN female pin header

1 X RPi screws pack (2pcs)

The WIZnet WizFi360-EVB-Pico is a development board designed for the WizFi360 module, a low-power, compact Wi-Fi module that provides Wi-Fi connectivity for IoT devices.

The development board includes a WizFi360 module, a USB port for power and communication, and various other connectors for interfacing with other devices. The board also consists of an onboard antenna and a U.FL connector for an external antenna, providing flexibility for antenna placement and optimization.

The WizFi360-EVB-Pico is designed to be used with the WIZnet WizFi360-EVB evaluation board, which provides a complete development environment for the WizFi360 module, including software development tools and example code.


Features & Specifications:

  1. RP2040 microcontroller with 2MByte Flash
    • Dual-core cortex M0+ at up to 133MHz
    • 264kByte multi-bank high-performance SRAM
    • External Quad-SPI Flash with eXecute In Place (XIP)
  2. Includes WizFi360-PA
    • WiFi 2.4G, 802.11 b/g/n
    • Support Station / SoftAP / SoftAP+Station operation modes
    • Support “Data pass-through” and “AT command data transfer” mode
    • Support serial AT command configuration
    • Support TCP Server / TCP Client / UDP operating mode
    • Support configuration of operating channel 0 ~ 13
    • Support auto 20MHz / 40MHz bandwidth
    • Support WPA_PSK / WPA2_PSK encryption
    • Support built-in unique MAC address and user-configurable
    • Industrial grade (operating temperature range: -40 ° C ~ 85 ° C)
    • CE, FCC certification
  3. Includes 16M-bit Flash Memory
  4. Micro-USB B port for power and data (and for reprogramming the Flash)
  5. 40 pin 21×51 ‘DIP’ style 1mm thick PCB with 0.1″ through-hole pins also with edge castellations
  6. 3-pin ARM Serial Wire Debug (SWD) port
  7. Built-in LDO

Package Includes:

1 x WIZnet WizFi360-EVB-Pico

Weight
DimensionsN/AN/AN/AN/AN/AN/A
Additional information
CAN controller

MCP2515

CAN transceiver

SI65HVD230(or SN65HVD230)

Communication interface

SPI

Operating voltage

5V

Logic level

3.3V/5V

Dimension

65 × 56.5(mm)

POWER INPUT

7-36V

STORAGE

MicroSD card socket for Compute Module 4 Lite (without eMMC) variants

FAN

Allows speed adjustment and measurement, 5V / 12V

INDICATOR

M.2 status LED CM4 status LED

CM4 SOCKET

Suitable for all variants of Compute Module 4

BATTERY SUPPORT

Parallel 18650 Li-ion battery × 3 (NOT included)

NETWORKING

Gigabit Ethernet RJ45 connector, integrates 802.3af-compliant PoE circuit (5V/2.5A)

USB

USB 2.0 Type A × 4

CONNECTOR

Raspberry Pi 40PIN GPIO header M.2 M KEY: slot, for connecting NVME SSD, or communication module with PCIE M.2 M KEY interface

DISPLAY MIPI DSI

Port × 1 (22pin 0.5mm FPC connector)

CAMERA MIPI

CSI-2 port × 2 (22pin 0.5mm FPC connector)

VIDEO HDMI

× 2, supports 4K 30fps output

RTC

Real-time clock with a battery socket and ability to wake Compute Module 4

DIMENSIONS

175.0 × 108.0mm

Operating voltage

3.3V/5V

Control interface

I2C/SM Bus

Sampling resistor

0.1Ω 1%

Voltage range

0~26V

Current range

±3.2A

Resolution

0.8mA (±3.2A range) OR 0.1mA (±400mA range)

Mounting hole

3.0mm

Dimensions

65mm × 30mm